135: Sunday 11th April 2010

Thursday I had an interview with Ford News about the Probatron. We chatted about the electric driving experience, had some photos done and then I sent them an email with the features of the car. That was cool. Last week I designed the circuits for the fuel gauge and rev counter conversion to state of charge and ammeter respectively. I then ordered the parts I needed from an electronics supplier. Today I constructed the 2 parts of the circuit for the fuel gauge to state of charge gauge conversion. The first part shown below takes 135v to 115v range and strips off 110v with zener diodes making the result between 25v and 5v. This goes through a potential divider to further reduce the voltage to a signal to drive the LED in an opto coupler. Typically opto couplers are used to separate different voltages, but only for on and off signals. I am using it for a linear signal. I tested it on a prototype board and it works fine. This way the 120v system and the gauge are isolated by the opto coupler. I only had one project box so I designed this circuit carefully so that it fits in a marker pen case. This will make it easy to mount on the throttle linkage bracket and it will be hidden.----The second part of the circuit picks up the signal from the LED in the opto coupler using the photo-transistor inside the opto coupler. This is configured as an emitter follower that feeds a transistor inverting amplifier. This then flips the voltage. The amplifier supply is provided by a 3.6v zener diode and a normal diode making the voltage 3.2v on the supply through a resistor to the collector of the power transistor. The output will measure 3.2v when the input is 113volts. It will measure 2.7v when the input is 116volts and it will measure 0v when the input is between 128 and 135volts. The gauge shows empty when it is supplied with 2.7v and full at 0v. So this will tell me empty at 116v and that is about 20% remaining and that is as low as I would want to go with Lead Acid batteries. The input circuit is adjustable, so when I get Lithium batteries then I can pop the circuit out of the marker pen case, adjust it then pop it back in.

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Tomorrow I hope to get the circuits fitted to the car along with a 1000 micro Farad capacitor to the throttle switch so the the capacitor holds the voltage that is present when the throttle is released only. So this is off-load and should be fairly stable. The gauge itself takes a couple of minutes to stabilize when the readings change anyway. I will monitor the gauge with the zapi programmer tester function showing the instantaneous voltage so I can check it when I stop and get an idea of how it reads for the different voltages. The gauge behaviour wasn't exactly linear. You may feel that the last bit of fuel goes quicker, but it doesn't, just the gauge goes down quicker due to the non-linearity of the gauge. It is not drastic and I am confident the gauge will give me a good indication. At the same time I have not had to add another gauge, but using a redundant one instead. This keeps it all neat looking. As an added bonus, when the gauge gets down a fair way, then the fuel low warning light comes on too, how's that! All the components I have bought for both gauges have come to just over £20 and that is less than half the price of an ugly add-on gauge and not including some kind of pod to put it into as well. I like to have my instruments look like they have always been in the car and not look like a dodgy add-on. I've seen quite a few examples of this on-line. I am not going to label anybody specifically.

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About Me

I am an automotive Engineer with a background of electrical and electronic engineering.
My interest in converting cars to electric is to preserve modern classics by adding electric drive thus reducing maintenance and improving driving. I like being green, but prefer the thrill of the torque when driving electric cars. Most electric cars are either cheap and ugly or good looking but too expensive. I hope to fill some of the middle ground before the major manufacturers get their fingers in.